AU593425B2 - Device for locking shift lever of automatic transmission - Google Patents

Description

S F Ref: 71423 FORM COMMONWEALTH OF AUSTRALIA PATENTS ACT 1952 COMPLETE SPECIFICATION

(ORIGINAL)

FOR OFFICE USE: 59Class Class C 4 4 O444 9) 9 o 0 4 9b 1* 9i *44 4* 9 9 Complete Specification Lodged: Accepted: Published: Priority: Related Art: Name and Address of Applicant: Kabushiki Kaisha Tokai-Rika-Denki-Seisakusho 1, Aza-Noda, Ohazd-Toyota Ohguchi-cho, Niwa Aichi-ken

JAPAN

Spruson Ferguson, Patent Attorneys Level 33 St Martins Tower, 31 Market Street Sydney, New South Wales, 2000, Australia Address for Service:

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4 4 Complete Specification for the invention entitled: Device for Locking Shift Lever of Automatic Transmission The following statement is a full description of this invention, including the besc method of performing it known to me/us t r a it :i 5845/3 4, p ABSTRACT OF TH-E DISCLOSURE An automatic shift lever locking device is capable of locking the shift lever of an automatic transmission in a specific non-driving shift position against movement from this position unless a predetermined condition is met.

The device has a detent pin provided on the shift lever and movable in response to pressing of a push button on the shift lever, a movable member engageable with the too**.detent pin, and a lock member engageable with the movable 0404 member so as to prevent the detent pin from moving out a 0 0 04 lock position thereby to maintain the shtft lever locked 4 00* 0 in the non-driving position. Therefore, when the chift lever is not locked, the manual force exerted by the 0 to driver on the push button is not transmitted to the lock 48 members and other parts mechanically connected to the lock member.

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DEVICE FOR LOCKING SHIFT LEVER OF AUTOMATIC TRANSMISSION BACKGROUND OF THE INVENTION Field of the Invention The present inve.ition relates to a device for locking a shift lever of an automatic transmission which is capable of inhibiting movement of the shift lever from a non-driving position such as neutral or parking position under a certain condition.

I" Description of the Related Art When parking an automobile with an automatic transmission, it is a common practice to set the automobile in immobile state by putting a parking brake into effect and setting the automatic transmission shift lever at a P (parking) position before leaving the automobile.

SWhen re-starting the automobile, the driver starts the engine while the lever is still in the P position and s then moves the shift lever to a D (driving) position past San R (reversing) position. The driver, therefore, has to keep the foot brake put on during shifting from the P position to the D position, in order to prevent from reversing the automobile.

Usually, the motion of the shift lever is interlocked with various other functions. For instance, an 41t interlocking mechanism is employed in which the motion of the shift lever is interlocked with the state of a steering locking mechanism in such a manner that the movement of the shift lever from a non-driving position such as the P position or an N (neutral) position is prevented under a certain condition of the steering lock.

Such an interlocking mechanism is operatively connected to a detent pin which is movable between an inoperative position and an operative position as a button on the knob of the lever is pressed and released by the driver.

The operation of this button tends to be impaired due to ft pthe presence of the interlocking mechanism which is connected to the detent pin. It is also experienced that the operation of the interlocking mechanism is o'oO inconveniently influenced by the manual pressing force exerted on the button on the shift lever knob.

o SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a device for locking an automatic transmission shift lever which is improved in such a way as to eliminate any unfavorable effect which might otherwise be caused on the operation of the shift lever knob due to the presence of an interlocking mechanism, as well as r undesirable influence of the manual pressing force caused on the interlocking "mechanism by the manual force exerted 2 66444-6 6 6 *646 6 4 6 666666 6 99* 6 6 66 6 66 66 0 9 6 6 6 *0- 6 66 6* 0 6 9~4 06 66 0 66 6.0 66 0 0* 66 6 09 6 6 6R 6 4* 6 6066* 6 4 by the driver on the shift lever knob.

To these ends, according to the present invention, there is provided a shift lever locking device for locking an automatic transmission shift lever which is capable of being selectively moved to and set in one of a plurality of shift positions including at least one non-driving position, the device comprises: a detent pin provided on the shift lever and designed to be moved in one direction in response to pressing of a button provided on the shift lever; a detent plate capable of selectively latching the shift lever in one of said positions in cooperation with the detent pin and having a, locking recess capable of receiving the detent pin when the detent pin is moved in the other direction after the shift lever is set in the non-driving position; a movable member capable of engaging with the detent pin At least when the detent pin is being brought into engagement with the locking recess and movable between a lock position where it engages with the detent pin so as to prevent the detent pin from moving and an unlock position where it is disengageable from the detent pin to allow the detent pin to move; and a lock member movable between a f irst position where it pevents the movable member from moving from the lock position and a second position-where it allows the movable member to move from 3-

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the lock position to the unlock position and capable of being moved from the second position to the first position when a predetermined condition is met while the shift lever is set in the non-driving position.

In operation, when the pledetermined condition has become to be met, the lock member is moved from the second position to the firs' position so as to hold the movable member in the lock position. In this state, the detent pin is not allowed to move even if the push button aoa ate* is pressed so that the detent pin cannot be disengaged i from the locking recess, whereby the shift lever is immovably locked in the non-driving position.

In a first aspect of the invention, the lock member is engaged with and spaced from the movable member when it al is in the first position and in the second position, respectively.

J a Therefore, when the lock member is in the second position, the manual pressing force exerted on the push button by the driver is not transmitted to the lock member, whereby any deterioration of the operation of the button which might otherwise be caused can be avoided.

These and other objects, features and advantages of the preset: invention will become clear from the following description of the preferred embodiments when the same is read in conjunction with the accompanying drawingsa 4- BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a partly-sectioned side elevational view of an embodiment of the device of the present invention for locking the shift lever of an automatic transmisison; Fig. 2 is a vertial sectional view of the embodiment shown in Fig. 1; Fig. 3 is an illustration of operation of the embodiment shown in Fig. 1; Fig. 4 is a schematic illustration of a second embodiment of the present invention; Fig. 5 is a partly-sectioned schematic side Selevational view of a third embodiment of the present invention; Fig. 6 is a view corresponding to Fig. 5 but showing Sthe third embodiment in a different state of operation from the state shown in Fig. Fig. 7 is a circuit diagram of an electrical circuit incorporated in the third embodiment; Fig. 8 is a diagram showing a change in a voltage which is applied to a solenoid; Fig. 9 is a view corresponding to that in Fig. 5 but i showing a fourth embodiment of the present invention; Fig. 10 is a view corresponding to Fig. 6; Fig. 11 is a view corresponding to that in Fig. 5 but S showing a fifth embodiment of the present invention; i 4.

Fig. 12 is a view corresponding to Fig. 6 but showing the fifth embodiment of the present invention; Fig. 13 is a sectional front elevational view of an essential portion of a sixth embodiment of the present invention; P'ig. 14 is a partly-sectioned side elevational view of a seventh embodiment of the present invention; and Fig. 15 is a partly-sectioned side elevational view of the seventh embodiment in a state different from that Vitt shown in Fig. 14.

DESCRIPTION OF THE PREFERRED EMBODIMENTS A f irst embodiment of the present invention will be described with reference to Figs. 1 tp7 3. An automotive automatic transmission has a shift lever 1 which is swingable about a fulcrum constituted by a shaft 3 provided on a plate 2, in the direction shown by an arrow A and also in the counter direction. A detent plate 4 f ixed to. the plate 2 has an engaging aperture 6 the upper edge of which is configured in the direction of swinging of the shift lever I so as to provide latching steps which cooperates with a later-m~entioned detent pin 7 in such a manner as to selectively limit the range of the movement of the shift lever 1 when the shift lever is moved from one to another of a plurality of shift positions including a P (parking) position, R (reverse) -6position, N (neutral) position, D (drive) position, 2nd range position and L (Low range) position. The portion of the upper edge of the aperture 6 where the detent pin 7 is located when the lever 1 is set in the P position is notched to provide a locking recess 8.

The detent pin 7 is movable along a slot formed in the shift lever 1. The arrangement is such that the dete" pin 7 is adapted to be moved to the lower end of the slot 1 so as to be disengaged from the latching steps 5 when a of ,push button 9 provided on a knob of the shift lever 1 is S* pushed by the driver. As the push button is released, the detent pin 7 is moved upward into engagement with one of the latching steps corresponding to one of the shift lever positions P, R, D, 2nd and L, whereby the shift lever is latched at the selected position. A movable member 10 is slidably supported by the detent plate 4 so as to slide along a line which interconnects the shaft 3 and the locking recess 8 corresponding to the P I position of the shift lever. The movable member 10 is provided at an upper portion thereof with an engaging recess 11 which opens to the right as viewed in Fig. 1 so as to confront the engaging aperture 6. The movable member 10 also is provided with an engaging step 12 on the left lower portion thereof as viewed in Fig. 1. A lock lever 13 as a locking member is rotatably supported 7 r i -~li .l by the detent plate 4. When the movable member 10 is set in a lower position as shown in Fig. 1, the upper portion of the lock lever 13 abuts the side surface of the movable member 10 so as to be prevented from swinging clockwise, in the direction of an arrow B, whereas, when the movable member 10 is locked in an upper lock position as shown in Fig. 3, the lock lever 13 is allowed to swing clockwise until its upper end is brought into engagement with the engaging step 12 of the movable ,member 10. A control wire 14 is connected at its one end to the lower end of the lock member 13, while the Sother end of the control wire 14 is connected to a Ssteering lock device. When the steering lock device has been dismissed, the lock lever 13 is urged in the direction counter to the arrow B, as illustrated in Fig.

1. The operation of this embodiment will be described hereafter. In the inoperative state of the steering lock device, the lock lever 13 has been rotated counter-clockwise to the position shown in Fig. 1, as explhaned above. It is assumed here that the shift lever 1 has been set in the N position. Movement of the shift lever 1 from the N position to the D position can be conducted without encountering any substantial resistance. Any further movement of the shift lever 1, however, is prevented because the detent pin 7 abuts the 8 wall of the latching step corresponding to the D position. The driver, if the lever has to be moved to 2nd or hL position, pushes the push button 9 so that the detent pin 7 is moved in one direction which is in this case downward direction out of engagement with the latching step corresponding to 'Uhe D position, so that the shift lever I can be further moved to 2nd and L positions. Returning movement of the shift lever from the L 4 position to the~ N position over the 2nd and D positions can be conducted without pushing operation of the push button 9 because the detent pin 7 can be slided along the 4latching steps when the shift lever 1 moves in th'e 0 0 direction counter to the arrow A. The driver also can move the shift lever 1 from the N position to the R posmition and further to the P position in the direction counter to the arrow A, by pressing the push button 9 to free the detent pin 7. Returning of the shif t lever 1 from the R position to the N position can be conducted without requiring pressing of the push button 9.

~**When the shift lever 1 is in positions other tban the P position, the movable member 10 has been displaced downward by the force of gravity, so that thle lock lever 13 is prevented from, rotating in the direction of the arrow B. Therefore, the engine key cannot be rotated to a locking position although it can be turned to the *y "engine off" position. The engine key -'ch a state cannot be extracted from the steering locking device.

However, as the driver moves the shift lever 1 in the direction counter to the arrow A into the P position while pressing the push button 9, the detent pin 7 is brought into engagement with the engaging recess 11 of the movable member 10 which has been set in the lower position. As the push button 9 is released from this state, the detent pin 7 is moved in the other direction Swhich is in this case upward direction into engagement with the locking recess 8, while lifting the movable member 10 into the lock position as shown in Fig. 3. In 4 this state, when the engine key is rotated to the steering lock position, the lock lever 13 is rotated in the direction of the arrow B so that its end is brought Sinto engagement with the engaging step 12. Since the 4 4 4 movable 'member 10 and, hence, the detent pin 7 are prevented from moving downward in this state despite pressing the push button 9, the detent pin 7 is received in the locking recess 8 so as to prevent the shift lever 1 from moving out of the P position.

As has been described, in the first embodiment of the locking device according to the present invention, the steering lock device cannot be set and, at the same time, the engine key cannot be extracted unless the shift lever 10 1 is set in the P position. This eliminates that the encine key will be extracted from the steering lock device during running of the automobile. Thus, the engine key can be extracted only after it has been turned to the lock position which essentially requires that the shift lever 1 is set in the P position in advance. Consequently, the automobile can be set in immobile state without fail before the driver leaves the automobile. Once the steering lock device is put into effect by the operation of the engine key, the shift lever 1 is locked in the P position and can by no means moved to another position unless the steering lock is unlocked by the engine key. In other Words, only the driver who keeps the engine key with him can unlock the shift lever 1 from the P position.

In the first embodiment as described, the shift lever 1 is locked in a specific non-driving position, in the P position, on a specific condition that the steering lock device has been put into effect by the engine key.

The arrangement, however, may be such that shift lever 1 Ott: is ,ocked in the P position on condition that the foot j brake pedal is not been applied and unlocked upon confirming that the foot brake has been put on.

The arrangement also may be such that the shift lever 1 *is locked in the N position which also is a non-driving 11 iV r- position.

Fig. 4 shows a second embodiment of the present invention in which a lock plate 15, which serves as a lock member ii place of the lock lever 13 of the first embodiment, is slidably carried by the detent plate 4 so as to be brought into and out of engagement with the engaging step 12 of the movable member 10. Other portions of the second embodiment, as well as the o operation, are materially the same as those of the first S: embodiment.

A third embodiment of the present invention will be described hereafter with reference to Figs. 5 and 6.

The third embodiment of the locking device has a shift lever 101 which is mounted on the plate 102 for swinging motion about a fulcrum provided by the shaft 103, in the direction of the arrow C and also in the direction #44, 0 counter to the arrow C. A detent plate 104 fixed to the plate 102 has, as shown in Fig. 5, a engaging aperture 105 the upper edge of which provides engaging or latching 9:Oa steps for latching a shift lever 101 selectively in one of the P, R, N, D 2nd and L positions along the path of the swinging motion of the shift lever 101. A rtch is provided in the portion of the upper edge of the engaginq aperture 105 corresponding to the P position of the shift lever 101, so as-to provide a locking recess 106.

12 A detent pin 107 is provided on a lower portion of the shift lever 101 so as to be movable in the axial direction of the shift lever 101 along an elongated slot formed in the wall of the shift lever 101 into and out of engagement with the upper edge of the engaging aperture 105 providing, the latching steps. The arrangement is such that, when a push button 108 provided on a knob 101a of the shift lever 101 is pressed by the driver, the :detent pin 107 is moved in one direction which is in this :case downward direction so as to be disengaged from one of the latching steps provided by the upper edge of the 0 aa engaging aperture 105. As the driver releases the push button 168, the detent pin 107 is moved in the other direction, upward, into engagement with one of the tlatching steps provided by the upper edge of the engaging aperture. Thus, the detent pin 107 cooperates with the °o:B o detent plate 104 in limiting the movement of the shift lever 101.

I I A reference numeral 109 designates a guide member I which is fixed to the detent plate 104, while a numeral 110 designates a lock member (movable member) which is carried by the guide member 109 for sliding movement in the direction of the arrow D and in the direction counter to the arrow D. The lock member 110 is provided at its 1 upper portion with an engaging recess 111 which opens to-- 13 w the left as shown in Fig. 5 so as to confront the locking recess 106 in Fig. 6. The lock member 110 also is provided with a notched porticyn in the right lower portion thereof as shown in Fig. 5 A lock lever serving as a lock member in the device of the present invention is secured to the plate 102 through a pin 114 for swinging motion about the pin 114.

A reference numeral 115 denotes a solenoid which is provided on a 'lower portion of the plate 102 and which serves as an electric actuating device. The sol(enoid 115 4 4,4has an actuator rod 116 which projects to the rightL- as 4. *shown in Fig. 5. The actuator rod 116 carries at its ~t end a holder 117 which is connected to a lower portion of the lock lever 113 through a pin 118. A coiled t r compression spring 119 is load~ed between the holder 117 and the solenoid 115. The solenoid 115 is adapted to be electrically energized only when all the three conditions are simultaneously satisfied: namely, setting the 04 shift lever 101 in the P position, switching on the ignition switch and putting on the foot brake pedal. As the solenoid 115 is energized, the actuator rod 116 is electromagnetically attracted in the direction of an arrow E against the force of the coiled comprssion spring 119 so as to swing the lock lever 113 in the direction of an arrow F. When at least one of -14 r

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444, 4 4,4444 4 4 II 4 b, .4 4 4*l 44 4 4 4 4 4 these three conditions fails to be met, the solenoid 115 is not energized so that the actuator rod 116 is pulled by the force of the compression coiled spring 119 in the direction counter to the arrow E, thereby to cause the lock lever 113 to swing in the direction counter to the arrow F. A description will be made with regard to an electric circuit for controlling the solenoid 115, in accordance with Fig. 7.

Referring to Fig. 7, the circuit includes an ignition switch 120, a P position detection switch 121 for detecting that the shift lever is set in tne P position, and a foot brake detection switch 122 which is adapted to be turned on when the foot brake pedal is pressed down. The circuit further includes transistors 123 to 126, capacitors 127 and 128, diodes 129 to 131, resistors 132 to "41, and a Zener diode 142. The operation of this circuit is as follows. The solenoid 115 is not energized whenever at least one of the ignition switch 120, P position detection switch 121 and the foot brake switch 122 is off. In such a state, the actuator rod 116 is urged in the direction counter to the arrow E by the force of the compression spring 119, The ignition switch 120 is turned on as the driver turns the ignition key.

The P position detecting switch 121 is turned on if the shift lever 101 has been set in the P position. The foot 15 d I brake switch 122 is turned on as the driver puts on the foot brake. When all these three switches are on, when all the three conditions mentioned before are satisfied, the transistor 123 is turned on so as to turn on also the transistor 124 and further the transistors 125 and 126. In consequence, the solenoid 115 is supplied with electric power so that the actuator rod 116 is attracted to move in the direction of the arrow E against the force of the compression coiled spring 119. As will

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be seen from Fig. 8, the voltage of the electric power supplied to the solenoid 116 at the time of start-up is 12V. The transistor 125 is turned off as the capacitor 127 connected to the base of the transistor 125 is charged up at an instant t shown in Fig. 8. Thereafter, the solenoid 115 is energized only through the transistor 126 and the resistor 132, so that the voltage applied to i the solenoid 115 is lowered to about 8 V. When at least one of the ignition switch 120, P position detection switch 121 and the foot brake switch 122 is turned off, when at least one of the above-mentioned three conditions is no more maintained, a potential difference is developed across the resistor 136 during discharging of the capacitor 127, so that a base current flows through the base of the transistor 126 so as to gently turn off the transistor 126. In consequence, any impact -16-

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which might be caused by the atuator rod 16 when the solenoid 115 is turned off is suppressed advantageously.

It is assumed here that the foot brake pedal is not being put on while the ignition switch 120 is in the on state and the shift lever 1t0 is in the P position. In this state, the detent pin 107 is received by the locking recess 106 in the detent plate 104 and is kept in engagement with the engaging recess of the lock Smember 110 whereby the lock member 110 is held in the 0444 lock position. Meanwhile, the solenoid 115 is kept in off state so that the actuator rod 116 of the solenoid 115 has been urged in the direction counter to the arrow St r t E oy the force of the coiled spring 119. Therefore, the lock lever has been rotated in the direction counter to the arrow F as shown by solid line, with its upper end is P; held in engagement with the notch 112 in the lock member S 110. In this state, the lock member 110, which is held iL in engagement with the detent pin 107, is prevented from moving in the direction of the arrow D because it is 4 r stopped by the lock lever 113. In this state, the detett pin 107 cannot move downward even if the push button 108 Son the shift lever 101 is pressed, so that the shift lever 101 cannot move from the P position to another shift position. Thus, the shift lever 101 is immovably locked in the P position when the foot brake pedal is not 17 -"i put on by the driver. As the driver applys the foot brake, the solenoid 115 is turned on so that the actuator 116 is attracted in the direction of the arrow E, with the result that the lock lever 113 is rotated in the direction of the arrow F as shown by two-dot-and-dash line, whereby the lock lever 113 is disengaged from the lock member 110 so as to free the lock member 110. As the push button 108 is pressed in this state, the detent ,on pin 107 is moved downward as indicated by the arrow D together with the lock member 110, so that the lock member 110 is set in an unlocking position as shown in Fig. 6. In this state, the detent pin 107 has been disengaged from the locking recess 106, so that the shift lever 101 can be moved from the P position to another position.

Once the shift lever 101 is shifted to another position, the N position as shown in Fig. 6, the P position detection switch 121 is turned off so that the t solenoid 115 is de-tnergized with the r-sult that the t lock lever 113 is Urged by the force of the coiled compression spring 119 so as to bring its end into 1contact with the right end of the lock member 110, as will be seen in Fig. 6. The solenoid 115 is never energized even if the foot brake switch 122 is turned on due to pressing down of the foot brake pedal, insofar as 18 V Ii the shift lever 101 is set in a position other than the P position. When the driver has moved the shift lever 101 to the P position while pressing the push button 108, the detent pin 107 is brought into engagement with the engaging recess 111 i n the lock member 110. Then, as the push button is released, the detent pin 107 together with the lock member 110 is moved upward counter to the arrow D so that the detent pin 107 is brought into engagement #ato with the locking recess 106 while the lock member 110 is 0 ,4 set in the lock position. As a result, the lock lever edge of the lock member 110 is swung in the direction counter to the arrow F by the force of the coiled St compression spring 119 so as to be caught in the notch 6 112 formed in the lock member 110, whereby the shift lever 101 is immovably locked in the P position as shown As will be understood from the foregoing description, in the third embodiment of the present invention, the solenoid 115 is never energized even if the ignition key is turned on while the shift lever 101 is set in the P position, unless the foot brake pedal is put on.

In other words, the driver is obliged to apply the foot brake pedal in order o move the shift lever from the P position to another position. This arrangement S19 i, therefore serves as a safety arrangement which eliminates the shift lever to be set in a driving position such as D, 2nd or L position from the P position while the foot brake pedal is not put on by the driver.

Anotaer advantage offered by this embodiment is as follows. The solenoid 115 is energized only when all the three conditions, setting the shift lever 101 in the P position, switching on the ignition switch 120 and 0 applying the foot brake, are simultaneously satisfied.

*004, Therefore, the solenoid 115 is never energized even when the foot tbrake is pressed down while the shift lever 101 is set in a position other than the P position. Consequently, the durability of the locking and unlocking mechanism is remarkably improved as compared with an arrangement in which the rock lever 113 is mechanically connected to the foot brake so as to ,t I be rotated each time the foot brake is put on.

The third embodiment as described also offers the o following advantage. Namely, in the third embodiment, the'lock lever 113 is disposed to act between the detent pin 107 and the actuator rod 116 of the solenoid 115.

Therefore, a manual pressing force exerted on the push button 108 by the driver while the shift lever 101 is set in the P position, which force acts to move the detent S- 20 If, pin 107 downward, is not directly transmitted to the actuator rod 116. Therefore, any risk for the actuator rod 116 to be damaged or deformed, which might be caused if the device were designed to allow the detent pin to directly act on the actuator rod 116, is avoided and smooth operation of the solenoid 115 is ensured.

Figs. 9 and 10 show a fourth embodiment of the present invention. The fourth embodiment is discriminated from the third embodiment by the following feature. Namely, the fourth embodiment lacks the lock lever 113 which is arranged in the third embodiment so as to act between the 4 lock member 110 and the solenoid 115. In addition, the solenoid 115 is disposed on the right side of the lock member 110. In this embodiment, therefore, the actuator rod 116 is urged in the direction counter to the arrow E by the force of the compression coiled spring 119 When the solenoid 115 is not energized while the shift lever 101 is set in the P position. In this state, the actuator rod 116 directly engages with the notch 112 in the Alock member 110 so as to hold the lock member 110 in the lock position. Then, as the solenoid 115 is turned q, on, the actuator rod 116 is attracted in the direction of the arrow E away from the lock member 110 thereby free the lock member. When the shift lever 101 is in a position other than the P position, the solenoid 115 is 21

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not energized so that the actuator rod 116 is held in contact with the right side edge of the lock member 110.

Figs. 11 and 12 illustrate a fifth embodiment of the present invention. The fifth embodiment is different from the third and fourth embodiments in that the lock member 1 43 is rotatable about a fulcrum 144. Referring to Fig. 11, when the solenoid 115 is not energized while the shift lever 101 is set in the P position, Ithe actuator rod 116 is urged in the direction counter to an arrow E by the force of AA the coile compression spring 119 so as to be held in 46 engagement with a notch 145 in the lock member 143 so as to prevent the lock member, 143 from rotating in the direction of the arrow H, thus holding the lock member A143 in the lock position. Then, as the solenoid 115 is energized, the actuator rod 116 is attracted in the Adirection of the Arrow E as shown by two-dot-and-dash line out of engagement with the notch 145 of the Iock member 143. In consequence, the lock member 143 ts @0Allowed to rotate in the direction of the arrow H. When wo A0 the shift lever 101 is set in a position other than the P position, the solenoid 115 is not energized so that the actuator rod 1116 is held in contact with the side edge of the lock member 143 as shown in Fig. 12.

fig. 1.3 illustrates a sixth embodiment of the present 22 invention. The sixth embodiment is distinguished from preceding embodiments in that the solenoid 115 is arrange such that the actuator rod 116 thereof extends orthogonally to the detent plate 104. In this embodiment, when the solenoid 115 is not energized, the actuator rod 116 is urged by the force of the coiled compression spring 119 in the direction counter to the arrow E as shown by solid line in Fig. 13. In this state, the actuator rod 116 is held in contact with the lower end of the lock member 110 so as to prevent the lock member from moving downward, thus holding the lock member 110 in the lock position. Then, as the solenoid 115 is turned on, the actuator 116 is attracted in the direction of the arrow E away from the lock member 110 so as to free the lock member 110 as shown by two-dot-and-dash line in Fig. 13. In the third to sixth embodiments as described, the lock member is held St in the lock position so as to lock the shift lever 101 s When the solenoid 115 is not energized, and the lock member is freed to unlock the shift lever 101 when the solenoid 115 is energized. Such an arrangement, however, Sis only illustrative. Namely, the third to sixth embodiments as described may be modified such that the shift lever 101 is locked when the solenoid 115 is energized and unlocked in response to de-energization of 23 Ci the solenoid 115.

x. The solenoid actuator used in these embodiments may be of the type in which the actuator rod, which has been moved to a position as a result of energization of the solenoid,, is held in this position even when the solenoid is de-energized.

The solenoid 115 used as an electric actuator in the third to sixth embodiments may be substituted by a

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Otto different type of electric actuator such as an electric motor.

It is also to be understood that the third to sixth embodiments may be modified such that the shift lever 101.

is lockable in the N position which also is a non-driving position of the shift lever 101, although locking in the P position has been described.

A descriptii will be made hereafter with regard to a seventh embodiment of the present invention in accordance with o :Figs. 14 and 15. A shift lever 201 is swingable about a fulcrum e;nstituted by a shaft 203 which in secured to a machine frame 202, in the direction of an arrow I and in the direction counter to the arrow I. A detent plate 204 fixed to one side of the frame 202 has an. engaging aperture 206 the upper edge of which is configured so as to provide lat'hing steps 205 which are arranged in the direction of swinging motion of the 2 .ft 24 lever 201 as will be clearly seen in Fig. 14. These latching steps 205 are adapted to cooperate with a later-mentioned detent pin 207 in latching the shift lever 201 selectively in one of a plurality of lever positions which are the P position, R position, J position, D position, 2nd position and the L position as shown in Fig. 14. A locking recess 208 is provided in the portion of the upper edge of the engaging aperture I corresponding to the P Losition of the shift lever 201.

OJ The detent pin 207 is movable on the tshift lever 201 in the axial direction of this lever 201. The arrangement S? is such that, when the push button 209 provided on the upper end of the shift lever 201 is manually pressed by J the driver, the detent pin 207 is moved in one direction V which is in this case downward direction out of engagement with the latching step provided by the upper edge of the engaging aperture 206. When the push button S« is released, the detent pin 207 is moved upward into engagement with one of the latching steps 205 provided by the upper edge of the engaging aperture 206, thus it latching the shift lever selectively in one of the plurality of the above-mentioned positions in cooperation with the detent plate 204. A reference numeral 210 designates a movable :-'ember which is provided at its upper portion with an engaging recess 211 which opens to 25 the right as shown in Figs. 14 and 15. The movable member 210 also is provided at its let upper portion with an elongated hole 212 which movably receives a pin 213 provided on a portion of the detent plate 204 near the locking recess 208. The engaging recess 211 is movable along a line which interconnects the shaft 203 and the locking recess 208. A lever member 214 is rotatably supported at its one end, at the right end as illustrated, by the detent plate 204 through a shaft 215, S while the other end, the left end as illustrated, is swingably connected to the lower end of the movable member 210 through the shaft 216. An arm 217 which is integral with the lever member 214 extends downward from I the right end of the lever member 214 as shown in Fig.

14. A steering lock device is connected to the end of Snthe arm 217 through a control wire which is not shown.

The steering lock device can be set in locking condition when the lever member 214 is set in the state shown in Fig. 15. When the steering lock device is set in the locking condition, the lever member 214 is prevented from rotating in the direction of an arrow J. The arm 217 and, hence, the lever member 214 become swingable as the steering lock device is set in the unlocking condition.

Once the a'm 217 is swung in the direction of the arrow J to the position shown in Fig. 14, the steering lock 26 p 1 r device is disabled from locking the steering system.

The operation of this embodiment is as follows. It is assumed here that the steering lock device has been set in inoperative state and the arm 217 has been s-wung in the direction of the arrow J as shown in Fig. 14. In this state, the driver can move the shift lever 201 from the N position to the D position but further movement of e the shift lever to the 2nd or L position is prevented because the detent pin 207 abuts the wall of the recess which defines the latching step 205 for the D position.

a The driver, if he or she wishes to select the 2nd or L range of automatic transmission, has to press the push button 209 on the knob of the shift lever 201. As explained before, pressing of the push button 209 causes 4 r the detent pin 207 to be moved in one direction, e.g., downward as illustrated, so that the detent pin 207 can clear the above-mentioned wall of the recess defining the S latching step for the D position, thus allowing the shift a« lever 201 to be moved to the 2nd position and further to the L position if necessary. Returning of the shift lever S| from the L position back to the N position past the 2nd and D positions can be effected without requiring pressing of the push button 209, simply by swinging the shift lever 201 in the direction counter to the arrow I, because in such a case the detent pin 207 can slide along 27 r the successive latching steps 205 without being stopped.

The shift lever 201 is movable from the N position to the R and P positions by swinging the same in the direction counter to the arrow I. The shifting of the shift lever 201 from the R position to the N position can be conducted without requiring pressing of the push button 209.

SWhen the shift lever 201 is in a position other than the P position, the movable member 210 has been lowered due to the fc'rce of gravity so that the arm 217 has been 4 4 rotated in the direction of the arrow J to the position .0 shown in Fig.. 14. In this state, the steering lock device cannot be set to the locking condition as explained before. In this state, the engine key, which has been rotated to the engine-off position, cannot be 44** turned to the steering lock position so that the engine key cannot be extracted from the steering lock device.

i However, as the driver moves the shift l.ver 201 in the t direction counter to the arrow I while pressing the push button 209, the detent pin 207 is brought into engagement with the engaging recess 211 in the movable member 210 which is now in the lowered position and, as the push button 209 is released after the shift lever 201 has been brought to the P position, the detent pin 207 is moved in the other direction, upward, into engagement with 28

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the locking recess 208 while lifting the movable member 210 to the raised position as shown in Fig. 15. The lever member 214 is rotated in the direction counter to the arrow J to the position shown in Fig. 15 as a result of the movement of the movable member 210, whereby the steering lock device becomes lock able the steering system. Thus, the engine key can be turned to the 0 steering lock position so that it can be extracted from 4 S.the steering lock device. In response to this operation, the lever member 214 becomes unable to rotate in the S4* direction of the arrow J. In this state, therefore, the movement of the detent pin in one direction, i.e., downward direction, is inhibited so that the detent pin 4* 207 cannot be disengaged from the locking recess 298, a 4 whereby undesirable shift of the shift lever 201 from the I P position is avoided.

In the seventh embodiment as described, the steering lock device cannot be put into effect and, therefore, the engine key cannot be extracted from the steering lock device unless the shift lever of the automatic ,transmission is set in the P position. Thus, the seventh embodiment also prevents the engine key from being extracted during running the automobile.

When the automobile is to be parked, the engine key can be extracted only after the steering lock device is put 29 Q into effect which in turn essentially requires that the shift lever 201 is set in the P position. Thus, the driver can lock the automobile in immobile state without fail whenever the driver leaves the parked automobile.

Once the steering lock device is put into effect by the turning of the engine key, the shift lever 201 set in the P position also is locked in this position so that the shift lever 201 can no more be; operated by any person other than the driver who carries the engine key with ,tt: him.

The seventh embodiemnt as described offers an additional advantage in that the stress can conveniently be distributed by virtue of the articulated construction employing the shaft or pin 216 through which the movable member 210 and the lever member 214 are connected to each other. This in turn allows these parts to be manufactured from less-expensive materials.

Although 1,n the seventh embodiment the shift lever 210 is locked ini thz P position as a non-driving psition on condition that the steering system is locked by means of the engine key, this is only illustrative and the Sarrangement may be such that the shift lever 201 is locked in the P position on conduition that the foot brake pedal has not been put on and unlocked on condition that the i same-pedal has been put on.

b ^r It is also possible to arrange such that the shift lever 201 is locked in the N position which also is a non-driving shift position of the automatic transmission, although locking in the P position has been specifically described.

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Claims (12)

1. A shift lever locking device for locking an automatic transmission shift lever which is capable of being selectively moved to and set in one of a plurality of shift positions including at least one non-driving position, said device comprising: a detent pin provided on said shift lever and designed to be moved in one direction in response to P pressing of a button provided on said shift lever; too$ ,0 a detent plate capable of selectively latching said 6 shift lever in cooperation with said detent pin and .having a locking recess capable of receiving said detent pin when said detent pin is moved in the other direction after said shift lever is set in said non-driving position; a movable member capable of engaging with said detent pin at least when said detent pin is being brought into engagement with said locking recess and movable between a lock position where it engages with said detent pin so as to prevent said detent pin from moving and an unlock position where it is disengageable from said detent pin to allow said detent pin to move; A and a lock member movable between a first position where it prevents said movable member from moving from said lock position and a second position where it allows 32 said movable member to move from said lock position to said unlock position and capable of being moved from said second position to said first position when a predetermined condition is met while said shift lever has been set in said non-driving position.

2. A device according to Claim 1, wherein said lock member in said first position is held in engagement with said movable member so as to prevent said movable 0 member from moving to said unlock position and in said second position spaced apart from said movable R, member so as to allow said movable member to move to said unlock position.

3. A device according to Claim 2, wherein said lock *member is swingable between said first and second positions.

4. A device according to Claim 2, wherein said lock member is linearly movable between said first and second positions. r, ,r 5. A device according to Claim 1, further comprising actuating means for causing said lock member to move.

6. A device according to Claim 5, wherein said actuating means .includes an electric actuator operative in response to an electrical signal which is produced when said. predetermined condition is met.

7. A device according to Claim 2, wherein said movable 33 member is adapted to be engaged by said detent pin when said shift lever is moved to said non-driving position, so as to move from said unlock position to said lock position following the movement of said detent pin in the other direction.

8. A device according to Claim 7, wherein said movable member is linearly movable between said lock position r and said unlock position. A device according to Claim 1, further comprising guide means for guiding movement of said movable member.

10. A device according to Claim 1, wherein said movable member is swingable between said lock position and said unlock position.

11. A device according to Claim 7, wherein said movable S* member has an engaging recess for receiving said detent pin.

12. A device according to Claim 2, wherein one of said S movable member and said lock member is provided with a recess while the other is provided with a mating projection, whereby the engagement between said movable member and said lock member is accomplished by the mutual engagement between the mating recess and projection.

13. A shift lever locking device for locking an automatic transmission shift lever which has a lever-

34- portion and a knob on one end of said lever portion and which is capable of being selectively moved to and set in one of a plurality of shift positions including at least one non-driving position, said device comprising: a detent pin provided on said shaft portion of said shift lever and designed to be moved in one direction in response to pressing of a button provided on said knob of said shift lever; a detent plate capable of cooperating with said detent pin when said detent pin has been moved in the other direction in imparting a feel of click to the swinging movement of said shift lever selectively in latching said shift lever in one of said positions, said detent plate having a locking recess capable of receiving said detent pin when said detent pin is moved 1 in the other direction after said shift lever is set in said non-driving position; a o a movable member capable of engaging with said detent pin at least when said detent pin is being brought into engagement with said locking recess a;d movable between a lock positiori where it engages with said detent pin so as to prevent said detent pin from moving and aft unlock position where it is disengageable from said detent pin to allow said detent pin to move; and a lock member movable between a first- position 35 where it prevents said movable mtember from moving from said lock position and a second position where it allows said movable member to move from said lock position to said unlock position and capable of being moved from said second position to said first position when a predetermined condition is met while said shift lever has been set in said non-driving position. ,t 14. A device according to Claim 13, wherein said lock member when in said first position is held in engagement with said movable member so as to prevent said movable Smember from moving to said unlock position and when in said second position spaced apart from said movable member so as to allow said movable member to move to said unlock position. A device according to Claim 14, wherein said lock member is swingable between said first and second positions. 16 A device according to Claim 14, wherein said lock l ,member is linearly movable between said first and second positions. 17. A device according to Claim 14, further comprising actuating means for causing said lock member to move, said actuating means including an actuator operative in response to an electric signal which is produced when said predetermined condition is-met. 1 3- 1 I i r~~j 4 4ti 4* 04 4 t ft« 4f 0$ 0 18. A device according to Claim 14, wherein said movable member is adapted to be engaged by said detent pin when said shift lever is moved to said non-driving position, so as to move from said unlock position to said lock position following the movement of said detent pin in the, other direction. 19. A device according to Claim 18, further comprising guide means for guiding movement of said movable member. 20. A device according to Claim 13, wherein said movable member is swingable between said lock position and said unlock position. DATED this TWELFTH day of SEPTEMBER 1988 Kabushiki Kaisha Tocai-Rika-Denki-Seisakusho Patent Attorneys for the Applicant SPRUSON FERGUSON 37 A